KR20030042953A - Spectacle Lens for Correcting Sight - Google Patents

Abstract

PURPOSE: A spectacle lens for correcting eyesight is provided to increase the resolution of an external object and a correcting effect for eyesight by causing a pin hole effect for a sensitive region with high sensitivity. CONSTITUTION: A spectacle lens includes a lens portion(10) and a thin film(20) adhered on a surface of the lens portion. The thin film is formed with a shielding region(21) and an incident region(22). The shielding region is used for shielding the light corresponding to a particular region of spectrum. The incident region has a diameter corresponding to a range of 3nm to 0.01mm. The incident region is formed with a plurality of pin holes. The particular region corresponds to a yellow region with high sensitivity.

Description

Spectacle Lens for Correcting Sight}

TECHNICAL FIELD The present invention relates to a spectacle correcting spectacle lens capable of viewing an object more clearly by using a visibility curve of retinal cells of an eye.

In general, a UV blocking film and an electromagnetic wave blocking film are adhered to the spectacle lens surface in order to block harmful UV rays and electromagnetic waves. Therefore, it is true that such spectacle lenses can block ultraviolet rays and electromagnetic waves harmful to the eyes to some extent and protect the eyesight.

In recent years, eyeglasses for correcting vision have been developed, which are not limited to protecting eyesight, but recovering eyesight by correcting vision such as hyperopia, myopia and astigmatism.

The eyeglasses for correcting eyesight puncture a plurality of pin holes having a size of 0.7 mm to 0.9 mm on the convex plate curved surface, and colors blue, green, etc. on the surface of the convex plate curved surface. Such eyeglasses are called microhole glasses or pinhole glasses because they penetrate the pin holes. Through pinholes, microhole glasses allow people with refractive errors such as myopia, hyperopia, astigmatism, and presbyopia to see distant (myopia) or near objects (presbyopia) using the pinhole effect.

However, these micro-hole glasses still cannot achieve sufficient vision improvement due to the inability to correct the vision due to the refractive power of the lens, and the amount of light available to the eyes is limited because the light outside the pinhole portion is not transmitted. There is a problem that the brightness of the image falls.

Meanwhile, the technical background of the microhole glasses will be described below.

The amount of light that receives light is related to the size of the pupil (aperture) of the eye. The diameter of the pupil is usually 2-6 mm. In FIG. 2A, the case is incident when the pupil is too large. At this time, the amount of light is so large that aberration occurs in the retina, and the image formed on the retina appears blurry.

On the other hand, in FIG. 2B, the case is incident through the pinhole. At this time, the blurring degree of the image to the image formed only by the light rays passing through the region on the optical axis with less aberration is reduced due to the pinhole of the beam around the optical axis of the incident beam.

The principle of microhole glasses is to artificially limit the amount of light incident by the pinholes so that a distant (myopia) or near object (presbyopia) can be seen.

Accordingly, an object of the present invention is to provide a spectacle correcting spectacle lens having an excellent effect on vision correction by varying the transmittance for each wavelength in the spectacle lens using the visibility curve of the retinal cells of the eye.

1 is a graph showing a general eye visibility curve,

Figure 2a is an illustration of the case where light is incident when the pupil of the eye is large,

2B is an exemplary diagram when light is incident by a pinhole;

Figure 3a is an exemplary view of a spectacle lens for vision correction according to the present invention,

3B is an enlarged partial sectional view of FIG. 3A;

4 is an exemplary view of another spectacle lens for vision correction according to the present invention;

5 is an exemplary view of another eyeglass lens for correcting vision according to the present invention;

6A and 6B are graphs showing a spectral distribution diagram of the spectacle lens for vision correction according to the present invention;

7 is a perspective view showing an example of a method of manufacturing a spectacle lens for vision correction according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: lens unit, 20: thin film,

21: blocking area, 22: entrance area.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are set in consideration of functions in the present invention, which may vary depending on the intention or custom of the producer producing the product, and the definitions should be made based on the contents throughout the present specification.

The spectacle lens for vision correction according to the present invention for achieving the above technical problem comprises a lens portion and a thin film adhered to the surface of the lens portion, the thin film is to block the light of a specific region in the spectrum It is characterized in that the blocking area, and the size of the diameter is within 3mm-0.01mm and formed into an incident area made of a plurality of pinholes.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention;

3A is an exemplary view of an eyeglass correcting lens according to the present invention, FIG. 3B is a partially enlarged cross-sectional view of FIG. 3A, FIG. 4 is an exemplary view of another eyeglass correcting lens according to the present invention, and FIG. Another example of the spectacle lens for correcting vision according to.

The spectacle lens for vision correction according to the present invention includes a lens unit 10 and a thin film 20.

The lens unit 10 corresponds to the spectacle lens and is different from the conventional microhole eyeglasses. Conventional micro-hole eyeglasses puncture a pinhole on the surface of a convex plate curved surface, but do not form any pinhole in the lens portion 10 of the present invention. In other words, the lens unit 10 of the present invention is similar to concave or convex lenses such as myopia, hyperopia, astigmatism, and the like, which are generally used.

Human eyes are most sensitive to visibility by the wavelength of yellow light. That is, it is known that the outline of the object is recognized by the yellow wavelength when the external object is seen by the eye, and the color of the object is recognized by the light of the other wavelength. This is shown in FIG. 1 as a visibility curve. That is, in FIG. 1, visibility is the highest when the wavelength of light is yellow. Therefore, when a person looks at an external object, it can be seen that the contour of the object is recognized by the wavelength of yellow light.

Therefore, it is the core of the present invention to give the above-mentioned pinhole effect (see FIG. 2B) to the light of the yellow system that recognizes the outline of the object so that the outline of the object can be recognized more clearly.

The thin film 20 has a blocking region 21 coated or colored with a specific material to block light of a yellow system, and an incident region 22 having a diameter of less than about 3 mm to 0.01 mm and made of a plurality of pinholes. It is divided into).

Here, the blocking area 21 is a coating or coloring process to block only the light of the yellow system. The material can be formed by laminating with materials such as cerium fluoride (CeF ₃ ), zirconium dioxide (ZrO ₂ ), magnesium fluoride (MgF ₂ ), or the like. The blocking region 21 formed as described above blocks yellow light but transmits other light wavelengths.

The incident area 22 is formed of a plurality of pinholes, as well as all the light, and particularly, a part of incident yellow light, without coating the lens 10. This is a different concept from the pinhole formed in the conventional microhole glasses, but is referred to herein as a pinhole for convenience. The diameter of each pinhole in the incident region 22 is limited to within about 3 mm to 0.01 mm, since the size of the pupil of the eye (aperture: the part that receives external light) is about 2-6 mm, so that the angle of the incident region 22 By limiting the maximum diameter of the pinhole to within about 3mm, the aberration generation can be reduced by making the incident light width of yellow light smaller than the diameter of the pupil (aperture).

The spectacle lens of the present invention formed as described above blocks the yellow light in the blocking area 21 and restricts incident yellow light only through the incident area 22, thereby forming an image formed on the retina of the eye. You can increase the sharpness.

6A and 6B are graphs showing the spectral distribution of the spectacle lens according to the present invention, and FIG. 6A is a transmission curve graph of the blocking region 21. In this case, all light is transmitted (incident) but yellow light is almost blocked. Shows. FIG. 6B is a graph of the transmission curve of the incident region 22, showing that all yellow light is transmitted (incident) together with all other colors of light.

On the other hand, each shape of the pinhole constituting the incident region 22 of the present invention may be formed in a square, as shown in Figure 3a and 3b, may be formed in a circular shape, as shown in Figure 4, Likewise, the pinhole and the pinhole may be connected to the connection line 23.

The method of forming the thin film 20 on the lens unit 10 may be coated, or may be directly bonded to the existing spectacle lens unit 10 by making an adhesive film as shown in FIG. 7.

As described above, the spectacle lens for correcting vision of the present invention causes a pinhole effect to light of a wavelength having a sensitive sensitivity curve on the surface to increase the sharpness of an external object, and is selective to light of other wavelengths. As a result, the visual acuity improvement effect is more excellent than that of the conventional spectacle lens by allowing the color to pass through the color.

Claims (3)

In the spectacle lens comprising a lens unit 10 and a thin film 20 adhered to the surface of the lens unit 10, The thin film 20 is formed of a blocking region 21 for blocking light of a specific region in the spectrum, and an incident region 22 having a diameter of 3 mm to 0.01 mm and a plurality of pinholes. Glasses lens for vision correction. The method of claim 1, The spectacle lens for correcting vision, characterized in that the light of the specific region is the light of the highest yellow area on the visibility curve. The method of claim 1, Eyeglasses for vision correction, characterized in that between the pinhole and the pinhole of the incident area 22 is connected by a connection line (23).